Stair design requires attention to all of the usual rules of residential design. Stairs should be graceful, useful, and comfortable. In addition, stairs must also be safe. Clearly, safety is more important for stair design than for most design issues (for example, ceiling height or window orientation).

Once you understand the basic principles of stair design, you’ll probably notice that lots of stairs lack a graspable handrail, or have inconsistent riser heights, or are dimly lit. Examples of flawed stairs are unfortunately common.

Designers and builders who do their homework before construction begins have few problems. Unfortunately, some projects happen backwards: the design and construction are well under way before the homework begins. That type of project can be problematic.

At GBAGreenBuildingAdvisor.com, we see examples of the latter group all the time. Designers, builders, or homeowners who are in the middle of a construction project will post basic questions on our Q&A page. “I’m looking at the rafters and trying to decide how we should insulate the roof,” they write, or “We’re trying to figure out the best place to put the HRV(HRV). Balanced ventilation system in which most of the heat from outgoing exhaust air is transferred to incoming fresh air via an air-to-air heat exchanger; a similar device, an energy-recovery ventilator, also transfers water vapor. HRVs recover 50% to 80% of the heat in exhausted air. In hot climates, the function is reversed so that the cooler inside air reduces the temperature of the incoming hot air. .”

In the green building community, carpeting has a bad reputation. While hardwood flooring is the honor student who sits in the front of the class, carpeting is the kid in the back row, shooting spitballs and ignoring the teacher.

Does carpeting deserve its bad reputation? Or has it been unfairly maligned?

Many older homes in rural areas have pier foundations. The piers may be made of wood (for example, creosoted posts or pressure-treated lumber), poured concrete, CMUs, or bricks. The space between the dirt and the underside of the floor framing may be enclosed or may be entirely open to the wind.

During the last week of June, many major U.S. news outlets sent reporters to Arizona to issue updates on the area’s extreme heat wave. Outdoor temperatures hit 119°F in Phoenix. Some airplanes were grounded because the hot air was too thin for small jets to take off. Car steering wheels were so hot that some drivers wore oven mitts. VinylCommon term for polyvinyl chloride (PVC). In chemistry, vinyl refers to a carbon-and-hydrogen group (H2C=CH–) that attaches to another functional group, such as chlorine (vinyl chloride) or acetate (vinyl acetate). records delivered by mail arrived warped. Emergency room physicians reported an increase in burn cases: hands were burned when people touched their cars, and children’s feet were burned when they went barefoot outdoors.

In some U.S. states, electric utilities refuse to offer a net-metering agreement to owners of PVPhotovoltaics. Generation of electricity directly from sunlight. A photovoltaic (PV) cell has no moving parts; electrons are energized by sunlight and result in current flow. systems. Instead of a net-metering agreement — an arrangement that provides a homeowner with a one-for-one credit for every kilowatt-hour (kWh) of PV-generated electricity fed into the grid — these utilities want to sell electricity to users for 12 cents or 15 cents per kWh, while buying it back for only 4 or 5 cents per kWh.

To reduce energy use, green builders often install above-code levels of insulation. Thick insulation is expensive, however, so it’s sometimes hard to know how much insulation is optimal.

To help guide builders wrestling with R-valueMeasure of resistance to heat flow; the higher the R-value, the lower the heat loss. The inverse of U-factor.
questions, I wrote an article in May 2016 (“How Much Insulation Is Too Much?”) reporting on R-value recommendations from three energy experts: David White, Marc Rosenbaum, and Rachel Wagner.

Most educated Americans still listen to scientists and believe in established methods of scholarly inquiry. That said, a strange side effect of our country’s recent slide into extreme political polarization has been an increase in the number of Americans who reject the conclusions of scientists and scholars.

Our homes include insulation to reduce heat flow through floors, walls, and ceilings. Some parts of our homes’ thermal envelopes (for example, insulated ceilings) are well insulated and have a high R-valueMeasure of resistance to heat flow; the higher the R-value, the lower the heat loss. The inverse of U-factor.
; other parts (like windows) have a much lower R-value. But during the winter, as long as we have an adequate heating system that keeps the indoor air temperature at 72°F, we should be comfortable — right?

Not quite. Even when the air temperature is held to a steady 72°F, occupants can be cold during the winter — especially if they are standing or sitting next to a large window.

The Energy Star HomesA U.S. Environmental Protection Agency (EPA) program to promote the construction of new homes that are at least 15% more energy-efficient than homes that minimally comply with the 2004 International Residential Code. Energy Star Home requirements vary by climate. program has been in trouble since 2012, when the Environmental Protection Agency rolled out a new version (Version 3) of the program’s requirements. Many builders found the Version 3 requirements so onerous that they dropped out of the Energy StarLabeling system sponsored by the Environmental Protection Agency and the US Department of Energy for labeling the most energy-efficient products on the market; applies to a wide range of products, from computers and office equipment to refrigerators and air conditioners. program. The number of new homes that have been certified under the Energy Star program has fallen 36% in recent years — from 130,305 in 2011 to 83,897 in 2015.

About the Author

Martin Holladay has worked as a plumbing wholesale counterperson, roofer, remodeler, and builder. He built his first passive solar house in northern Vermont in 1974, and has lived off the grid since 1975. In 1980, Holladay bought his first photovoltaic(PV) Generation of electricity directly from sunlight. A photovoltaic cell has no moving parts; electrons are energized by sunlight and result in current flow. module, which is still producing electricity after all these years. Read more...